A printing apparatus includes: a first driving portion transporting a paper sheet; a printing portion being disposed on an upstream side of the first driving portion in a transporting direction of the transported paper sheet, including a plurality of aligned ejection ports ejecting liquid onto the transporting paper sheet to print an image on the paper sheet by the liquid; a drawing portion being disposed on an upstream side of the printing portion in the transporting direction, drawing the paper sheet of which a tip end is placed at a preset position, and feeding the paper sheet to a transporting path via the printing portion and the first driving portion; and a guiding portion being interposed between the printing portion and the first driving portion in the transporting direction, and when feeding the paper sheet, freely reciprocating between a first position and a second position.
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1. A printing apparatus comprising:
a first driving portion that transports a paper sheet by driving;
a printing portion that is disposed on an upstream side of the first driving portion in a transporting direction of the paper sheet which is transported by the first driving portion, includes a plurality of aligned ejection ports ejecting liquid onto the transporting paper sheet to print an image on the paper sheet by the liquid;
a drawing portion that is disposed on an upstream side of the printing portion in the transporting direction, draws the paper sheet of which a tip end is placed at a preset position, and feeds the paper sheet to a transporting path via the printing portion and the first driving portion; and
a guiding portion that is arranged between the printing portion and the first driving portion in the transporting direction; and
a second driving portion that drives the guiding portion and moves the guiding portion,
wherein:
when feeding the paper sheet, the guiding portion reciprocates between a first position and a second position which is apart from the first position in a first direction in accordance with the driven by second driving portion,
the guide portion guides a part passing through the printing portion in the paper sheet to the first driving portion in a state where the guide portion is in the first position, and
the guide portion makes the part passing through the printing portion in the paper sheet detour in the first direction and guides the part to the first driving portion in a state where the guide portion moves to the second position.
2. The printing apparatus according to
wherein the guiding portion includes a first guiding portion and a second guiding portion,
the first guiding portion and the second guiding portion move as one body in moving between the first position and the second position,
the second guiding portion is separated from the first guiding portion and freely moves between the second position and a third position which is apart from the second position in a second direction that intersects the first direction, and
the guiding portion makes the part that passes through the printing portion in the paper sheet detour in the first direction by the first guiding portion in a state where the second guiding portion moves to the third position, and further, makes the part detour in the second direction by the second guiding portion and guides the part to the first driving portion.
3. The printing apparatus according to
a control portion that performs a first control which the allows the first driving portion to transport the paper sheet at a relatively lowered transporting speed and moves the guiding portion by the second driving portion from the first position to a printing position after the paper sheet is fed, allows the printing portion to perform printing on the paper sheet at a speed in accordance with the relatively lowered transporting speed, allows the first driving portion to transport the paper sheet at a relatively raised transporting speed after the guiding portion moves to the printing portion, and allows the printing portion to perform printing on the paper sheet at a speed in accordance with the relatively raised transporting speed.
4. The printing apparatus according to
wherein, in addition to performing the first control, being free to be switched with the first control, the control portion performs a second control which allows the second driving portion to move the guiding portion to the printing position before printing is started by the printing portion after the paper sheet is fed, and allows the printing portion to start printing on the paper sheet transported by driving the first driving portion after the guiding portion moves to the printing position.
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This application is based on and claims priority under 35 USC 119 from Japanese Patent Application No. 2014-181944 filed on Sep. 8, 2014, Japanese Patent Application No. 2014-181945 filed on Sep. 8, 2014, Japanese Patent Application No. 2014-181946 filed on Sep. 8, 2014, and Japanese Patent Application No. 2014-181947 filed on Sep. 8, 2014.
The present invention relates to a printing apparatus, a paper transporting device, and a printing Machine Maintenance device.
An aspect of the present invention provides a printing apparatus including: a first driving portion that transports a paper sheet by driving; a printing portion that is disposed on an upstream side of the first driving portion in a transporting direction of the paper sheet which is transported b the first driving portion, includes a plurality of aligned ejection ports ejecting liquid onto the transporting paper sheet to print an image on the paper sheet by the liquid; a drawing portion that is disposed on an upstream side of the printing portion in the transporting direction, draws the paper sheet of which a tip end is placed at a preset position, and feeds the paper sheet to a transporting path via the printing portion and the first dining portion; and a guiding portion that is interposed between the printing portion and the first driving portion in the transporting direction, and when feeding the paper sheet, freely reciprocates between a first position and a second position which is apart from the first position in a first direction, in which the guide portion guides a part passing through the printing portion in the paper sheet to the first driving portion in a state where the guide portion is in the first position, and the guide portion makes the part passing through the printing portion in the paper sheet detour in the first direction and guides the part to the first driving portion in a state where the guide portion moves to the second portion.
Exemplary embodiment(s) of the present invention will be described in detail based on the following figures, wherein
Hereinafter, exemplary embodiment(s) of the present invention will be described.
(Description of the Entire Apparatus)
A printing apparatus 1 is a printing apparatus which pulls out and transports a continuous business form paper sheet that is folded and stored in a storage box 11 placed in a paper storage portion 10, that is, a so-called continuous form paper sheet P, and which prints an image on the continuous form paper sheet P.
Perforations 12 are formed on the continuous form paper sheet P with a certain interval. In addition, in both end portions of the continuous form paper sheet P in a width direction, sprocket holes 13 are formed to be aligned in a longitudinal direction with a certain pitch. The continuous form paper sheet P is folded every perforation 12 by considering the perforation 12 as a fold, and is stored in the storage box 11 as illustrated in
The description continues with reference to
A tractor 30 and a driving device 80 have, a function of transporting the continuous form paper sheet P. The tractor 30 corresponds to an example of a drawing portion and an example of a sending device, and the driving device 80 corresponds to an example of a first driving portion and an example of a transporting portions.
The tractor 30 is provided with projections not illustrated) which are fitted in the sprocket holes 13 (refer to
If a tip end portion of the continuous form paper sheet P is manually pulled out from the storage box 11 and the continuous form paper sheet P is fed up to the tractor 30 along a necessary paper feeding path, then, the continuous form paper sheet P is sent by the tractor 30, and is automatically fed via the necessary paper feeding path. At this time, a guiding portion 701 which constitutes a guiding device 70 is at a first position A which is close to a printing machine 60 and the driving device 80, and guides the tip end portion of the continuous form paper sheet P which keeps being fed. The guiding device 70 and the guiding portion 701 will be described in detail later. The continuous form paper sheet P which passes through the driving device 80 is folded and accommodated in a paper accommodation portion 90 along the paper feeding path which is switched by a paper feeding switching mechanism 91 in advance, or is transported toward a post-processing device (not illustrated) which is provided at a rear end of the printing apparatus 1. In addition, a tip end of the continuous form paper sheet P is manually delivered to the post-processing device from the printing apparatus 1. In addition, in the printing, apparatus 1, a control device 100 which has a function of controlling the entire printing apparatus 1 is provided. In the control device 100, a user interface (UI) 101 for notifying a user of a state in the printing apparatus 1 or giving a command of the user to the printing apparatus 1, is provided.
The continuous form paper sheet P which is pulled out from the storage box 11 is via a paper pulling stabilizing device 20 which is provided with a fan 22, is given a back tension by a back tension roll 29, is via the above-described tractor 30, and further, reaches the driving device 80 through a paper path via a paper powder removing device 40, a printing machine maintenance device 50 which is at a retreating position, the printing machine 60, and the guiding device 70. As described above, the continuous form paper sheet P, which is further sent out by the driving device 80, is accommodated in the paper accommodation portion 90 along the paper feeding path which is switched by the paper feeding switching mechanism 91, or is sent out from the printing apparatus 1.
(Driving Device)
Hereinafter, first, the driving device 80 will be described.
A driving roll 81 is provided in the driving device 80. The driving roll 81 receives a driving force of a motor 83 which is transferred via a relay gear 82, and is driven to rotate in an arrow R direction.
The tip end portion of the continuous form paper sheet P which is sent by the tractor 30 and is guided by the guiding device, passes between a guiding roll 84 and a guiding member 85 which faces the guiding roll and reaches the driving roll 81. Then, the continuous form paper sheet P is guided to a guiding member 86 which faces the driving roll 81 and advances by being wound around the driving roll 81, and then, is pressed against the driving roll 81 by a spring-biased pressing roll 87. After this, as described above, the continuous form paper sheet P advances toward the paper accommodation portion 90, or is sent out from the printing apparatus 1.
(Printing Machine)
Next, the printing machine 60 will be described. The printing machine 60 is an example of a printing portion and an example of the printing machine.
The printing machine 60 is a so-called ink jet type printing machine, and plural nozzles 61 which eject ink toward the continuous form paper sheet P from ejection ports 61a are aligned in the width direction of the continuous form paper sheet R When the image is printed on the continuous form paper sheet P, the printing machine 60 moves in an arrow D direction and is at a printing position illustrated in
(Guiding Device)
Hereinafter, the guiding device 70 will be described. In the guiding, device 70, the guiding portion 701 is provided. The guiding portions 701 includes a first guiding portion 71 and a second guiding portion 72 which are respectively provided with a plurality of rolls 711 and 721.
The guiding portion 701 is configured to be interposed between the printing machine 60 and the driving device 80 in a transporting direction of the continuous form paper sheet P, and to freely reciprocate in a horizontal direction (arrow X-X direction) between a first position A and a second position B. When the continuous form paper sheet P is fed, and when the printing is paused, the first position A is a position at which the guiding portion 701 is moved and placed. The guiding portion 701 which is at the first position A guides the tip end portion of the continuous form paper sheet P which passes through the printing machine 60 to the driving device 80. When moving between the first position A and the second position B, the first guiding portion 71 and the second guiding portion 72 move as one body. When the guiding portion 701 is at the second position B, the guiding portion 701 makes a part which passes through the printing machine 60 in the continuous form paper sheet P detour up to the second position B in a horizontal direction (arrow X-X direction), and guides the part to the driving device 80.
In addition, in the embodiment, the second guiding portion 72 is configured to be separated from the first guiding portion 71 and freely move, between the second position B and a third position C which descends from the second position B in a perpendicular direction (arrow Z-Z direction).
In other words, in a state where the second guiding portion 72 moves to the third position C, the guiding portion 701 makes a part which passes through the printing machine 60 in the continuous form paper sheet P detour in the horizontal direction (arrow X-X direction) by the first guiding portion 71, further makes the part detour up to the third position C in the perpendicular direction (arrow Z-Z direction) by the second guiding portion 72, and guides the part to the driving device 80. The horizontal direction (arrow X-X direction) is an example of the first direction, and the perpendicular direction (arrow Z-Z direction) is an example of the second direction.
Since the printing machine 60 performs printing on the continuous form paper sheet P using the ink which is the liquid, it is necessary to take some time to dry the printing. Here, in the printing apparatus 1 of the embodiment, when printing is performed on the continuous form paper sheet P, a large detour is made in order to ensure time for drying the ink.
Here,
As described above, the guiding portion 701 includes the first guiding portion 71 and the second guiding portion 72. The guiding device 70 includes a pair of guiding frames 702 which extends in the horizontal direction (arrow X-X direction) and guides the guiding portion 701 in the horizontal direction (arrow X-X direction), and a rack 703 which extends in the horizontal direction (arrow X-X direction) in the same manner.
In contrast, the first guiding portion 71 which constitutes the guiding portion 701 includes a guiding roller 712 and a motor 713.
The guiding roller 712 is a member which is fitted in the guiding frame 702 and is guided to the guiding frame 702. In addition, in the motor 713, a pinion gear (not illustrated) which is engaged with the rack 703 is fixed to a rotation axis of the motor 713. Accordingly, when the motor 713 rotates, first, the first guiding portion 71 is guided to the guiding frame 702 and moves in the horizontal direction (arrow X-X direction).
In addition, in the first guiding portion 71, a combination concave portion 714 (refer to
At the second position B, a lift mechanism 705 which moves the second guiding portion 72 in the perpendicular direction (arrow Z-Z direction illustrated in
One of a first control and a second control in the flow chart is selected in advance by an operation of an UI 101 (refer to
When the printing apparatus 1 pauses printing, the first guiding portion 71 returns to the first position A and stands by. Meanwhile, the guiding portion 701 moves to the printing position while printing is performed, and stops at the printing position. Here, in the embodiment, in general, a case where the first guiding portion 71 is at the second position B, and the second guiding portion 72 is at the third position C, is referred to as a case where the guiding portion 701 is at the printing position. However, in a state where the printing apparatus 1 uses quick-drying ink, and the guiding portion 701 (both the first guiding portion 71 and the second guiding portion 72) is at the second position B, that is, when drying is sufficiently performed only by making the continuous form paper sheet P detour up to the second position B in the horizontal direction, a case where the guiding portion 701 including the second guiding, portion 72 is at the second position B may be a case where the guiding portion 701 is at the printing position.
When the printing start command is received, first, it is determined whether or not the guiding portion 701 is at the first position A (step S01). A state where the guiding portion 701 is at the first position A means a state where printing is paused. Operations in a state where the guiding portion 701 is at the first position A, will be described later.
When it is determined that the guiding portion 701 is not at the first position A (step S01), then, it is determined, whether or not the guiding portion 701 is at the printing position (step S02). When the guiding portion 701 is not at the first position A and not at the printing position, the guiding portion 701 is in the middle of movement between the first position A and the printing position, and the movement continues (step S03).
When it is confirmed that the guiding portion 701 is at the printing position (step S02), it is determined whether the transporting speed of the continuous form paper sheet P is a prescribed transporting speed or the transporting speed is in the middle of increase at this moment, (step S04). When the transporting speed is in the middle of increase, until the transporting speed reaches the prescribed transporting speed, a state where the speed increases is maintained (step S05).
When it is determined that the transporting speed of the continuous form paper sheet P is the prescribed speed (step S05), then, it is determined whether or not printing which is commanded before the current printing command is in the middle of being performed (step S06). When printing is in the middle of being performed, the current printing command is in a state of waiting printing, and printing is started after the previous priming ends.
In the step S06, when it is determined that printing is not in the middle of being performed, printing is started at a speed in accordance with the prescribed transporting speed.
Next, operations when it is determined that the guiding portion 701 exists at the first position A in the step S01, will be described.
In the step S01, when it is recognized that the guiding portion 701 exists at the first position A, the guiding portion 701 starts to move toward the printing position (step S09), and according to this, the continuous form paper sheet P starts to be slowly transported (step S10).
After this, the operation sequence varies depending on the control set in advance by the user of the first control and the second control.
In a case of the first control, the stand-by time until printing is started is shortened.
In a case of the first control, when the guiding portion 701 starts to move and the continuous form paper sheet P starts to be transported at a slow transporting speed, printing is started at a speed in accordance with a slow transporting speed (step S11). Then, when the guiding portion 701 reaches the printing position (step S12), the transporting speed of the continuous form paper sheet P increases toward the prescribed transporting speed (step S13), and printing is performed at a printing speed which is increased in accordance with the increased transporting speed, (step S14). Then, when the transporting speed of the continuous form paper sheet P reaches the prescribed transporting speed (step S15), printing is started at a printing speed in accordance with the prescribed transporting speed (step S16).
In other words, in the first control, printing is started from a starting point of the movement of the guiding portion 701 from the first position A.
Next, the second control will be described. In a case of the above-described first control, since printing is performed even when the guiding portion 701 moves and even before the transporting speed of the continuous form paper sheet P reaches the prescribed transporting speed, it is disadvantageous that ensuring a quality of printing is difficult. In contrast, in the second control described below, operations in which the quality of printing is considered important are performed.
In the second control, even when the guiding portion 701 starts to move in the step S09, and the continuous form paper sheet P starts to be transported at a slow transporting speed in the step S10, printing is not performed immediately, and stands by until the guiding portion 701 reaches the printing position (step S22). Furthermore, even when the guiding portion 701 reaches the printing position, printing is not started yet, and the transporting speed of the continuous form paper sheet P is increased (step S23). Then, when the transporting speed of the continuous form paper sheet P reaches the prescribed transporting speed (step S25), printing is started at a printing speed in accordance with the prescribed speed, (step S26).
In a case of the second control, when printing is started, the guiding portion 701 is in a state of being moved to the printing position, and the transporting speed of the continuous form paper sheet P is also stabilized to be the prescribed transporting speed. Therefore, compared to a case of the first control, printing with a stabilized high quality is performed (step S26).
In other words, in a case of the second control, the guiding portion 701 is in a state of being moved to the printing position, and the transporting speed of the continuous form paper sheet P is also stabilized to be the prescribed transporting speed. Therefore, compared to a case of the first control, printing with a stabilized high quality is expected.
(Paper Pulling Stabilizing Device)
Next, the paper pulling stabilizing device 20 illustrated in
As described above, the storage box 11 is placed in the paper storage portion 10. In the storage box 11, the continuous form paper sheet P having the structure illustrated in
After the paper sheet is fed, printing is performed on the continuous form paper sheet P. However, when printing is performed, a residual amount of the continuous form paper sheet P in the storage box 11 becomes smaller. When a void g between the inner wall surface of the storage box 11 and the continuous form paper sheet P in the storage box 11 is narrow to be several mm, and the residual amount of the continuous form paper sheet P becomes smaller, if the air flow into a wedge-shaped part on a rear side of a pulled-out part of the continuous form paper sheet P is not followed, and there is no particular countermeasure, there is a case where the continuous form paper sheet P is pulled out while being adhered to the inner wall surface of the storage box 11. In this case, since the continuous form paper sheet P is folded by the perforations 12 (refer to
Here, in the embodiment, the paper pulling stabilizing device 20 is disposed in an upper portion of the storage box 11 which is placed in the paper storage portion 10, and the continuous form paper sheet P is stably pulled out from the storage box 11.
Here, a guiding member 21, the fan 22, a supporting roll 23, are illustrated.
Here, the guiding member 21 is an example of a leading member. The guiding member 21 is installed at a position which is apart upwardly from the storage box 11 placed in the paper storage portion 10, and is a member which stabilizes a direction of transportation of the continuous form paper sheet P pulled out from the storage box 11.
In addition, the fan 22 is an example of an air blowing portion. The fan 22 has a function of sending out the wind in a lateral direction toward a part before the continuous form paper sheet P pulled out from the paper storage portion 10 reaches the guiding member 21.
In this manner, when the fan 22 is provided and the lateral wind hits the part which is pulled out from the storage box 11, in the continuous form paper sheet P, the continuous form paper sheet is apart from the inner wall surface of the storage box 11.
Here, if the fan 22 is installed in a direction of actively sending the wind to the void g between the inner will surface of the storage box 11 and the continuous form paper sheet P stored in the storage box 11, the continuous form paper sheet P is flapped to be a posture which cannot be controlled and becomes unstable.
In addition the supporting roll 23 is an example of the supporting member. The supporting roll 23 is in contact with a part which is laterally pushed by the wind sent out from the fan 22, and has a function of laterally supporting the part of the continuous form paper sheet P which is pulled out from the storage box 11 placed in the paper storage portion 10.
The supporting roll 23 is arranged between the fan 22 and the guiding member 21 in the vertical direction. In other words, in a relationship of installation heights, the guiding member 21 (height H1), the supporting roll 23 (height H2), and the fan 22 (height H3) are H1>H2>H3. In the embodiment, H1=750 mm, H2=450 mm, and H3=400 mm.
When the supporting roll 23 is provided, compared to a case where the wind is sent by the fan 22 without providing the supporting roll 23, the continuous form paper sheet P pulled out from the storage box 11 is unlikely to flutter. In addition, as H2>H3, that is, as the supporting roll 23 is disposed above an air blowing port of the fan 22, the accuracy of posture control of the continuous form paper sheet P is further enhanced compared to a case where the supporting roll 23 is disposed below the air blowing port (H2<H3).
Here, the supporting roll 23 is in contact with the continuous form paper sheet P, and is a rotating body which is driven by transportation of the continuous form paper sheet R However, instead of the supporting roll 23 which is the rotating body, a supporting member which is a non-rotating body, may be disposed.
As a result of making the wind hit the part, which keeps being pulled out from the storage box 11 in the continuous form paper sheet P, by the fan 22, because of the wind, when the continuous form paper sheet P comes into contact with a surface on a side apart from the fan 22 among the inner wall surfaces of the storage box 11, there is a concern that a change in tension or in transporting speed is generated by the contact at this time. Here, even when the continuous form paper sheet P is laterally pushed by the wind sent from the fan 22, an amount of wind (rotating speed of the fan 22) or the position where the supporting roll 23 is disposed is adjusted so that the continuous form paper sheet P avoids coming into contact with the inner wall surface of the storage box 11 because of the wind. The supporting roll 23 is disposed at a position of L/2=3.5 inches to be disposed at a center of a minimum paper folding length L (for example, 7 inches).
The direction of transportation of the continuous form paper sheet P which is pulled out while receiving the lateral wind from the storage box 11 is stabilized by the guiding member 21. Furthermore, the continuous form paper sheet P is via, the back tension roll 29 illustrated in
In the printing apparatus 1 of the embodiment, it is possible to use three types of continuous form paper sheets P, including the continuous form paper sheets P having a minimum paper width W1 (for example, 6.5 inches in width), an intermediate paper width W2 (for example, 15 inches in width), and a maximum paper width W3 (for example, 18 inches in width).
Here, in the embodiment, two fans 22A and 22B are disposed.
When the continuous form paper sheet P having the minimum paper width W1 is used, only the fan 22A which is one of the two fans 22A and 22B operates to the continuous form paper sheet P. For this reason, the amount of wind which is sent out from the fan 22A is set to be an amount of wind to an extent that the continuous form paper sheet P which keeps being pulled out from the storage box 11 that stores the continuous form paper sheet P having the minimum paper width W1 does not come into contact with the inner wall surface of the storage box which stores the continuous form paper sheet P having the minimum paper width W1.
In addition, when the continuous form paper sheet P having the intermediate paper width W2 or the maximum paper width W3 is used, both of the two fans 22A and 22B operate to the continuous form paper sheet P. For this reason, in a relationship with the amount of wind of the fan 22A, an amount of wind of the fan 22B is set on conditions that a balance of the amount of wind in a paper width direction is not lost, and the continuous form paper sheet P does not come into contact with the inner wall surface of the storage box 11 that stores the continuous form paper sheet P when the continuous form paper sheet P having the intermediate paper width W2 or the maximum paper width W3 is pulled out from the storage box 11.
(Paper Powder Removing Device)
Next, the paper powder removing device 40 will be described.
The paper powder removing device 40 is an example of a removing portion. The paper powder removing device 40 has a function of removing the paper powder which is transported by an air current which accompanies the transportation of the continuous form paper sheet P. The paper powder removing device 40 is disposed further on an upstream side than the printing machine 60 in the transporting direction of the continuous form paper sheet P, and prevents generation of an image defect by reducing an amount of paper powder which is transported to the printing machine 60.
The paper powder removing device 40 is provided, with a reflux forming portion 41 and a paper powder collecting portion 42.
Here, the reflux forming portion 41 includes a facing portion 411 and an extending portion 412. The facing portion 411 faces the continuous for paper sheet P by making a space S between the facing portion 411 and the continuous form paper sheet P which is in the middle of transportation. In addition, the extending portion 412 extends from a part of the continuous form paper sheet P of the facing portion 411 on the downstream side in the transporting direction, up to the vicinity of the continuous form paper sheet P, toward the continuous form paper sheet P, in a direction diagonal to the upstream side in the transporting direction. If the extending portion 412 does not come into contact with the continuous form paper sheet P, it is preferable that the extending portion 412 extends to the continuous form paper sheet P as close as possible. Specifically, since the paper powder, which is carried by an air current which accompanies the transportation of the continuous form paper sheet P, is carried by an air space having approximately 6 mm from the continuous form paper sheet P, it is preferable that the extending portion 412 extends to be closer to the continuous form paper sheet P by more than 6 mm. In addition, here, the extending portion 412 diagonally extends facing the upstream side in the transporting direction toward the continuous form paper sheet P, but the extending portion 412 may perpendicularly extend toward the continuous form paper sheet P.
The reflux forming portion 41 has a function of detaching paper powder d which is transported by the air current that accompanies the transportation of the continuous form paper sheet P from the continuous form paper sheet P by the extending portion 412, refluxing the paper powder d by putting the paper powder d into the space S between the continuous form paper sheet P and the facing portion 411, and leading the air current including the paper powder d to the paper powder collecting portion 42.
In addition, the paper powder collecting portion 42 is provided with a dust collecting filter 421 and a fan 422. In a case of the air current which is led to the paper powder collecting portion 42, the paper powder d in the air current is collected by the dust collecting filter 421, and the paper powder d is finally discharged to the outside of the printing apparatus 1 by the fan 422.
Since the paper powder removing device 40 of the embodiment is provided with the reflux forming portion 41 having the above-described configuration, the paper powder is prevented from being confined in the space S by the reflux forming portion 41 and from widely spreading. Therefore, the paper powder is efficiently collected by the paper powder collecting portion 42.
In describing the first modification example, and in second and third modification examples which will be described later, constituent elements which are the same as or corresponds to those of the paper powder removing device 40 in
In the extending portion 412 which constitutes the reflux forming portion 41 of a paper powder removing device 40A according to the first modification example illustrated in
In a case of the first modification example, by blowing out the air, an air curtain is formed between the extending portion 412 and the continuous form paper sheet P, the amount of the paper powder d which passes through the void between the extending portion 412 and the continuous form paper sheet P and flows to the printing machine 60 (refer to
In the facing portion 411 which constitutes the reflux forming portion 41 of a paper powder removing device 40B according to the second modification example illustrated in
Even in a case of the second modification example, similarly to the case of the first modification example illustrated in
The reflux forming portion 41 which constitutes a paper powder removing device 40C according to the third modification example is installed only in a region corresponding to the end portion of the continuous form paper sheet P in the width direction, at which the sprocket holes 12 (refer to
As described above, the projections (not illustrated) of the tractor 30 (refer to
The paper powder removing device 40C according to the third modification example illustrated in
In addition, the paper powder collecting portion 42 of the paper powder removing device 40C according to the third modification example is installed on an outer side of the continuous form paper sheet P in the width direction and an inlet port 42a which sucks in the air faces the continuous form paper sheet P. In the case of the third modification example, by the fan 422, the air current is actively sucked in from the inlet port 42a, facing the inlet port 42a side of the paper powder collecting portion 42. The fan 422 according to the third modification example is an example of an intake portion.
In the third modification example, since the paper powder collecting portion 42 is installed at a position which is shifted from the continuous form paper sheet P in the width direction, the paper powder which remains in the vicinity of the inlet port 42a is prevented from being carelessly dropped onto the continuous form paper sheet P and from causing an image defect.
In addition, in the third modification example illustrated in
(Printing Machine Maintenance Device)
Next, the printing machine maintenance device 50 illustrated in
The printing machine 60 is the so-called ink jet type printing machine which prints the image on the continuous form paper sheet P by ejecting the ink from the ejection ports 61a. The printing machine 60 in the embodiment is a printing machine, in which the plural nozzles 61 are aligned linearly in the width direction (a direction which is perpendicular to a paper surface in
Here, when the printing is paused, in order to maintain moisture, a cap covers the ejection port 61a. In addition, in the ejection port 61a, since the ink is attached and wet, there is a concern that a dust, such as the paper powder, is likely to be attached and a quality of printing deteriorates when the dust is attached. For this reason, it is necessary to make the ejection ports 61a always clean by wiping off the ejection ports 61a of the nozzles 61 at times.
The printing machine maintenance device 50 in the embodiment is an example of a maintenance device. The printing machine maintenance device 50 has both functions of covering the ejection ports 61a of the nozzles 61 and wiping off the ejection ports 61a.
When printing is paused, the printing machine 60 is raised in the arrow U direction illustrated in
The printing machine maintenance device 50 freely reciprocates in an arrow A-B direction illustrated in
The printing machine maintenance device 50 includes a covering portion 51 which operates as the cap of the nozzles 61, and a cleaning portion 52 which cleans the nozzles 61 by wiping off the nozzles 61.
In the covering portion 51, a recess portion 511 which extends in the width direction (a direction which is perpendicular to the paper surface in
Even in the cleaning portion 52, a long groove 521 which extends in the width direction of the continuous form paper sheet P is provided. In the cleaning portion 52, a wiping device 53 which wipes off the ejection ports 61a (refer to
When cleaning the ejection ports 61a of the nozzles 61, the printing machine maintenance device 50 is moved and paused so that the nozzles 61 are disposed right above the long groove 521. Then, the wiping device 53 is moved along the long groove 521. In this case, a wiping member 531 which is provided in the wiping device 53 wipes off the ejection ports 61a of the nozzles 61.
A wiping member wiping portion 54 is provided in an end portion on a left side of the long groove 521 in
In addition, in the printing machine maintenance device 50, two motors 55 and 56 are provided. One motor 55 is a motor which moves the printing machine maintenance device 50 in the arrow A-B direction illustrated in
In the printing machine maintenance device 50, a relative height of the covering portion 51 and the cleaning portion 52 is a problem. Since the wiping member 531 which is provided in the wiping device 53 that is a constituent element of the cleaning portion 52 wipes off the ejection ports 61a on lower ends of the nozzles 61, as illustrated in
Meanwhile, when the wiping member 531 is installed at a position lower than the covering portion 51, the covering portion 51 can sufficiently cover the ejection ports 61a of the nozzles 61. However, in this case, the covering portion 51 becomes an obstacle, and thus, the wiping member 531 hits the ejection ports 61a of the nozzles 61 and wiping cannot be sufficiently performed.
In order to solve this problem, it is considered that the wiping device 53 or the wiping member 531 is vertically moved by the motor. However, in this case, it is required that the motor is additionally provided, and further, a mechanism which vertically moves the wiping device 53 or the wiping member 531 is provided, and accordingly, a more complicated configuration, a larger size, and a higher cost, are inevitable.
In contrast, in the embodiment, as described below, the height of the wiping member 531 is changed.
The wiping member 531 has a configuration in which a wiping blade 531a is supported by a supporting member 531b. In the supporting member 531b, projections 531c for positioning are provided. The wiping device 53 wipes the ejection ports 61a (refer to
As illustrated in
In addition, the center of the wiping member assembly 532 in the longitudinal direction is supported to be freely and slightly rotated in an arrow R1-R1 direction illustrated in
As illustrated in
The wiping member assembly 532 is protruded in the longitudinal direction as illustrated in
As illustrated in
As illustrated in
In contrast,
As can be known from
The wiping member assembly 532 which is supported by the supporting member 538 moves in the arrow FR direction illustrated in
In addition,
In the wiping member wiping portion 54 (refer to
In
In
In the cleaning portion 52 illustrated in
When the wiping member assembly 532 moves in the arrow R direction and is apart from the cleaning member 541, the wiping member assembly 532 which is pushed to the cleaning member 541 as illustrated by the dashed line in
When wiping off the ejection ports 61a of the nozzles 61, first, the printing machine maintenance device 50 is moved so that the covering portion 51 is positioned right below the nozzles 61, and the ink is ejected from the ejection ports 61a so that ink droplets can be made in the ejection ports 61a of the nozzles 61. This is for removing the dust even when the dust, such as the paper powder gets into the nozzles 61 from the ejection ports 61a of the nozzles 61. In addition, the covering portion 51 is disposed right below the nozzles 61 in preparing for a case where the ink is dropped.
After this, the printing machine maintenance device 50 is moved so that the cleaning portion 52 is positioned right below the nozzles 61. Then, the wiping member assembly 532 which is at the initial position is moved toward the front side (arrow F direction). The wiping member assembly 532 which is at the initial position butts against the butting member 529 and has the inclined, second posture. However, when the wiping member assembly 532 starts to move toward the front side and is apart from the butting member 529, the wiping member assembly 532 is in the raised first posture. In the raised first posture, the wiping blade 531a of the wiping member 531 wipes off the ejection ports 61a of the nozzles 61 which are aligned linearly. When wiping is over, and the wiping member assembly 532 reaches the front side, by the cleaning member 541 which is provided on the front side, the wiping blade 531a of the wiping, member 531 is wiped off. After this, the wiping member assembly 532 returns to the initial position on the rear side, butts against the butting member 529, and waits in the inclined second posture. Furthermore, after this, the priming machine maintenance device 50 is moved so that the covering portion 51 is right below the nozzles 61, the printing machine 60 descends, and the ejection ports 61a of the nozzles 61 are covered with the covering portion 51. Accordingly, the printing machine 60 is in a waiting state where the ejection ports 61a of the nozzles 61 are covered with the covering portion 51 in a state of being cleaned by wiping, and the moisture is maintained.
In addition, here, the rear side is considered as the initial position of the wiping member assembly 532. However, even on the front side, since the wiping member assembly 532 butts against the cleaning member 541 provided in the wiping member wiping portion 54 and is in the inclined second posture, the front side may be set as the initial position of the wiping member assembly 532.
In this manner, in the embodiment, the height of the wiping member 531 is a height at which the wiping member assembly 532 wipes off the ejection ports 61a of the nozzles 61 in the raised first posture, and a height at which the wiping member 531 does not interfere with the covering portion 51 so as to cover the ejection ports 61a of the nozzles 61 in the inclined second posture when the wiping member 531 is moved to the front side or the rear side. Therefore, in the embodiment, a mechanism which vertically moves the wiping device 53 or the wiping member 531 by the motor is not necessary, and a simple configuration and a low cost can be achieved.
The foregoing description of the exemplary embodiments of the present invention has been provided for the purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise forms disclosed. Obviously, many modifications and variations will be apparent to practitioners skilled in the art. The embodiments were chosen and described in order to best explain the principles of the invention and its practical applications, thereby enabling others skilled in the art to understand the invention for various embodiments and with the various modifications as are suited to the particular use contemplated. It is intended that the scope of the invention be defined by the following claims and their equivalents.
Kudo, Masafumi, Taguchi, Yoshiyuki, Kishimoto, Teruki, Ikegami, Shun
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Executed on | Assignor | Assignee | Conveyance | Frame | Reel | Doc |
Feb 04 2015 | KISHIMOTO, TERUKI | FUJI XEROX CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 034897 | /0634 | |
Feb 04 2015 | TAGUCHI, YOSHIYUKI | FUJI XEROX CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 034897 | /0634 | |
Feb 04 2015 | IKEGAMI, SHUN | FUJI XEROX CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 034897 | /0634 | |
Feb 04 2015 | KUDO, MASAFUMI | FUJI XEROX CO , LTD | ASSIGNMENT OF ASSIGNORS INTEREST SEE DOCUMENT FOR DETAILS | 034897 | /0634 | |
Feb 05 2015 | Fuji Xerox Co., Ltd. | (assignment on the face of the patent) | / | |||
Apr 01 2021 | FUJI XEROX CO , LTD | FUJIFILM Business Innovation Corp | CHANGE OF NAME SEE DOCUMENT FOR DETAILS | 058287 | /0056 |
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